剑桥雅思9Test1阅读Passage2原文翻译 Is there anybody out there

剑桥雅思9Test1阅读Passage2原文翻译 Is there anybody out there 外星有生命存在吗



雅思真题阅读词汇 剑桥雅思9 test 1 passage 2 外星是否有生命存在

剑桥雅思9Test1阅读Passage2答案解析 Is there anybody out there 外星存在生命吗

剑桥雅思9 Test1 Passage2阅读原文翻译


The question of whether we are alone in the Universe has haunted humanity for centuries, but we may now stand poised on the brick of the answer to that question, as the search for radio signals from other intelligent civilizations. This search, often known by the acronym SETI (search for extra-terrestrial intelligence), is a difficult one. Although groups around the world have been searching intermittently for three decades, it is only now that we have reached the level of technology where we can make a determined attempt to search all nearby stars for any sign of life.

关于我们是否在宇宙中独自存在的问题困扰着人类已有数百年之久。但随着对来自其他文明无线电信号的寻找,我们现在可能正处于解决该问题的边缘。这种搜索通常以缩写词SETI(search for extra-terrestrial intelligence)而闻名,是一项困难的工作。尽管世界各地的团体已经断断续续搜索了三十年,但直到现在我们才达到相应的技术水平,使我们可以坚定地尝试搜索所有附近的恒星以寻找生命迹象。


The primary reason for the search is basic curiosity—the same curiosity about the natural world that drives all pure science. We want to know whether life evolves naturally if given the right conditions, or whether there is something very special about the Earth to have fostered the variety of life forms that we see around us on the planet. The simple detection of a radio signal will be sufficient to answer this most basic of all the questions. In this sense, SETI is another cog in the machinery of pure science which is continually pushing out the horizon of our knowledge. However, there are other reasons for being interested in whether life exists elsewhere. For example, we have had civilization on Earth for perhaps only a few thousand years, and the threats of the nuclear war and pollution over the last few decades have told us that our survival may be tenuous. Will we last another two thousand years or will we wipe ourselves out? Since the lifetime of a planet like ours is several billion years, we can expect that, if other civilizations do survive in our galaxy, their ages will range from zero to several billion years. Thus any mere existence of such a civilization will tell us that long-term survival is possible, and gives us some cause for optimism. It is even possible that the older civilization may pass on the benefits of their experience in dealing with threats to survival such as nuclear war and global pollution, and other threats that we haven’t yet discovered.



In discussing whether we are alone, most SETI scientists adopt two ground rules. First, UFOs (Unidentified Flying Objects) are generally ignored since most scientists don’t consider the evidence for them to be strong enough to bear serious consideration although it is also important to keep an open mind in case any really convincing evidence emerges in the future. Second, we make a very conservative assumption that we are looking for a life form that is pretty well like us, since if it differs radically from us we may well not recognize it as a life form, quite apart from whether we are able to communicate with it. In other words, the life form we are looking for may well have two green heads and seven fingers, but it will nevertheless resemble us in that it should communicate with its fellows, be interested in the Universe, live on a planet orbiting a star like our Sun, and perhaps most restrictively, have a chemistry, like us, based on carbon and water.



Even when we make these assumptions, our understanding of other life forms is still severely limited. We do not even know, for example, how many stars have planets, and we certainly do not know how likely it is that life will arise naturally, given the right conditions. However, when we look at the 100 billion stars in our galaxy (the milky way), and 100 billion galaxies in the observable Universe, it seems inconceivable that at least one of these planets does not have a life form on it: in fact, the best educated guess we can make, using the little we do know about the conditions for carbon-based life, leads us to estimate that perhaps one in 100,000 stars might have a life-bearing planet orbiting it. That means that our nearest neighbours are perhaps 100 light years away, which is almost next door in astronomical terms.



An alien civilization could choose many different ways of sending information across the galaxy, but many of these either require too much energy, or else are severely attenuated while traversing the vast distances across the galaxy. It turns out that, for a given amount of transmitted power, radio waves in the frequency range 1000 to 3000 MHz travel the greatest distance, and so all searches to date have concentrated on looking for radio waves in this frequency range. So far there have been a number of searches by various groups around the world, including Australian searches using the radio telescope at Parkes, New South Wales. Until now there have not been any detections from the few hundred stars which have been searched. The scale of the searches has been increased dramatically since 1992, when the US Congress NASA 110 million per year for ten years to conduct a thorough search for extra terrestrial life. Much of the money in this project is being spent on the developing the special hardware needed to search many frequencies at once. The project has two parts. One part is a targeted search using the world’s largest radio telescopes, the America-operated telescope in Arecibo, Puerto Rico and the French telescope in Nancy in France. This part of the project is searching the nearest 1000 likely stars with high sensitivity for signals in the frequency range 1000 to 3000 MHz. The other part of the project is an undirected search which is monitoring all of space with a lower sensitivity, using the smaller antennas of NASA’s Deep Space Network.

外星文明可以选择许多不同的方式在银河系之间发送信息,但是其中许多要么需要太多能量,要么在穿越星系的巨大距离时会严重衰减。事实证明,对于给定的发射功率,在1000到3000 MHz频率范围内的无线电波传播的距离最远。因此迄今为止,所有的搜索都集中在寻找该频率范围内的无线电波。目前,世界各地的各种团体进行了许多搜索,包括澳大利亚使用新南威尔士州帕克斯市的射电望远镜进行搜索。到现在为止,还没有从已经搜索的几百颗恒星中找到任何发现。自1992年以来,搜索的规模已急剧增加,当时美国国会给NASA每年1亿美元,连续十年进行深入的地外生命的搜索。该项目中的大部分资金都花在了开发可同时搜索多个频率所需的特殊硬件上。该项目分为两个部分。一部分是采用世界上最大的射电望远镜进行有目的的搜索。该项目的这一部分以较高的敏感度正在搜索最近1000个恒星,以寻找1000至3000MHz频率范围内的信号。该项目的另一部分是不定向搜索。它使用NASA深空网络的小型天线以较低的灵敏度监视所有空间。


There is considerable debate over how we should react if we detect a signal from an alien civilization. Everybody agrees that we should not reply immediately. Quite apart from the impracticality of sending a reply over such large distances at short notice, it raises a host of ethical questions that would have to be addressed by the global community before any reply could be sent. Would the human race face the culture shock if faced with a superior and much older civilization? Luckily, there is no urgency about this. The stars being searched are hundreds of light years away, so it takes hundreds of years for their signal to reach us, and a further few hundreds for our reply to reach them. It’s not important, then, if there’s a delay of a few years, or decades. While the human race debates the question of whether to reply, and perhaps carefully drafts a reply.


剑桥雅思9Test1阅读Passage1原文翻译 William Henry Perkin 合成染料的发明者

剑桥雅思9Test1阅读Passage3原文翻译 The history of the tortoise 乌龟的历史

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